Hacked By AnonymousFox
require 'stringio'
require 'tempfile'
require 'rack/lint'
require 'rack/mock'
describe Rack::Lint do
def env(*args)
Rack::MockRequest.env_for("/", *args)
end
should "pass valid request" do
lambda {
Rack::Lint.new(lambda { |env|
[200, {"Content-type" => "test/plain", "Content-length" => "3"}, ["foo"]]
}).call(env({}))
}.should.not.raise
end
should "notice fatal errors" do
lambda { Rack::Lint.new(nil).call }.should.raise(Rack::Lint::LintError).
message.should.match(/No env given/)
end
should "notice environment errors" do
lambda { Rack::Lint.new(nil).call 5 }.should.raise(Rack::Lint::LintError).
message.should.match(/not a Hash/)
lambda {
e = env
e.delete("REQUEST_METHOD")
Rack::Lint.new(nil).call(e)
}.should.raise(Rack::Lint::LintError).
message.should.match(/missing required key REQUEST_METHOD/)
lambda {
e = env
e.delete("SERVER_NAME")
Rack::Lint.new(nil).call(e)
}.should.raise(Rack::Lint::LintError).
message.should.match(/missing required key SERVER_NAME/)
lambda {
Rack::Lint.new(nil).call(env("HTTP_CONTENT_TYPE" => "text/plain"))
}.should.raise(Rack::Lint::LintError).
message.should.match(/contains HTTP_CONTENT_TYPE/)
lambda {
Rack::Lint.new(nil).call(env("HTTP_CONTENT_LENGTH" => "42"))
}.should.raise(Rack::Lint::LintError).
message.should.match(/contains HTTP_CONTENT_LENGTH/)
lambda {
Rack::Lint.new(nil).call(env("FOO" => Object.new))
}.should.raise(Rack::Lint::LintError).
message.should.match(/non-string value/)
lambda {
Rack::Lint.new(nil).call(env("rack.version" => "0.2"))
}.should.raise(Rack::Lint::LintError).
message.should.match(/must be an Array/)
lambda {
Rack::Lint.new(nil).call(env("rack.url_scheme" => "gopher"))
}.should.raise(Rack::Lint::LintError).
message.should.match(/url_scheme unknown/)
lambda {
Rack::Lint.new(nil).call(env("rack.session" => []))
}.should.raise(Rack::Lint::LintError).
message.should.equal("session [] must respond to store and []=")
lambda {
Rack::Lint.new(nil).call(env("rack.logger" => []))
}.should.raise(Rack::Lint::LintError).
message.should.equal("logger [] must respond to info")
lambda {
Rack::Lint.new(nil).call(env("rack.multipart.buffer_size" => 0))
}.should.raise(Rack::Lint::LintError).
message.should.equal("rack.multipart.buffer_size must be an Integer > 0 if specified")
lambda {
Rack::Lint.new(nil).call(env("rack.multipart.tempfile_factory" => Tempfile))
}.should.raise(Rack::Lint::LintError).
message.should.equal("rack.multipart.tempfile_factory must respond to #call")
lambda {
Rack::Lint.new(lambda { |env|
env['rack.multipart.tempfile_factory'].call("testfile", "text/plain")
}).call(env("rack.multipart.tempfile_factory" => lambda { |filename, content_type| Object.new }))
}.should.raise(Rack::Lint::LintError).
message.should.equal("rack.multipart.tempfile_factory return value must respond to #<<")
lambda {
Rack::Lint.new(nil).call(env("REQUEST_METHOD" => "FUCKUP?"))
}.should.raise(Rack::Lint::LintError).
message.should.match(/REQUEST_METHOD/)
lambda {
Rack::Lint.new(nil).call(env("SCRIPT_NAME" => "howdy"))
}.should.raise(Rack::Lint::LintError).
message.should.match(/must start with/)
lambda {
Rack::Lint.new(nil).call(env("PATH_INFO" => "../foo"))
}.should.raise(Rack::Lint::LintError).
message.should.match(/must start with/)
lambda {
Rack::Lint.new(nil).call(env("CONTENT_LENGTH" => "xcii"))
}.should.raise(Rack::Lint::LintError).
message.should.match(/Invalid CONTENT_LENGTH/)
lambda {
e = env
e.delete("PATH_INFO")
e.delete("SCRIPT_NAME")
Rack::Lint.new(nil).call(e)
}.should.raise(Rack::Lint::LintError).
message.should.match(/One of .* must be set/)
lambda {
Rack::Lint.new(nil).call(env("SCRIPT_NAME" => "/"))
}.should.raise(Rack::Lint::LintError).
message.should.match(/cannot be .* make it ''/)
end
should "notice input errors" do
lambda {
Rack::Lint.new(nil).call(env("rack.input" => ""))
}.should.raise(Rack::Lint::LintError).
message.should.match(/does not respond to #gets/)
lambda {
input = Object.new
def input.binmode?
false
end
Rack::Lint.new(nil).call(env("rack.input" => input))
}.should.raise(Rack::Lint::LintError).
message.should.match(/is not opened in binary mode/)
lambda {
input = Object.new
def input.external_encoding
result = Object.new
def result.name
"US-ASCII"
end
result
end
Rack::Lint.new(nil).call(env("rack.input" => input))
}.should.raise(Rack::Lint::LintError).
message.should.match(/does not have ASCII-8BIT as its external encoding/)
end
should "notice error errors" do
lambda {
Rack::Lint.new(nil).call(env("rack.errors" => ""))
}.should.raise(Rack::Lint::LintError).
message.should.match(/does not respond to #puts/)
end
should "notice status errors" do
lambda {
Rack::Lint.new(lambda { |env|
["cc", {}, ""]
}).call(env({}))
}.should.raise(Rack::Lint::LintError).
message.should.match(/must be >=100 seen as integer/)
lambda {
Rack::Lint.new(lambda { |env|
[42, {}, ""]
}).call(env({}))
}.should.raise(Rack::Lint::LintError).
message.should.match(/must be >=100 seen as integer/)
end
should "notice header errors" do
lambda {
Rack::Lint.new(lambda { |env|
[200, Object.new, []]
}).call(env({}))
}.should.raise(Rack::Lint::LintError).
message.should.equal("headers object should respond to #each, but doesn't (got Object as headers)")
lambda {
Rack::Lint.new(lambda { |env|
[200, {true=>false}, []]
}).call(env({}))
}.should.raise(Rack::Lint::LintError).
message.should.equal("header key must be a string, was TrueClass")
lambda {
Rack::Lint.new(lambda { |env|
[200, {"Status" => "404"}, []]
}).call(env({}))
}.should.raise(Rack::Lint::LintError).
message.should.match(/must not contain Status/)
# From RFC 7230:<F24><F25>
# Most HTTP header field values are defined using common syntax
# components (token, quoted-string, and comment) separated by
# whitespace or specific delimiting characters. Delimiters are chosen
# from the set of US-ASCII visual characters not allowed in a token
# (DQUOTE and "(),/:;<=>?@[\]{}").
#
# token = 1*tchar
#
# tchar = "!" / "#" / "$" / "%" / "&" / "'" / "*"
# / "+" / "-" / "." / "^" / "_" / "`" / "|" / "~"
# / DIGIT / ALPHA
# ; any VCHAR, except delimiters
invalid_headers = 0.upto(31).map(&:chr) + %W<( ) , / : ; < = > ? @ [ \\ ] { } \x7F>
invalid_headers.each do |invalid_header|
lambda {
Rack::Lint.new(lambda { |env|
[200, {invalid_header => "text/plain"}, []]
}).call(env({}))
}.should.raise(Rack::Lint::LintError, "on invalid header: #{invalid_header}").
message.should.equal("invalid header name: #{invalid_header}")
end
valid_headers = 0.upto(127).map(&:chr) - invalid_headers
valid_headers.each do |valid_header|
lambda {
Rack::Lint.new(lambda { |env|
[200, {valid_header => "text/plain"}, []]
}).call(env({}))
}.should.not.raise(Rack::Lint::LintError, "on valid header: #{valid_header}")
end
lambda {
Rack::Lint.new(lambda { |env|
[200, {"Foo" => Object.new}, []]
}).call(env({}))
}.should.raise(Rack::Lint::LintError).
message.should.equal("a header value must be a String, but the value of 'Foo' is a Object")
lambda {
Rack::Lint.new(lambda { |env|
[200, {"Foo" => [1, 2, 3]}, []]
}).call(env({}))
}.should.raise(Rack::Lint::LintError).
message.should.equal("a header value must be a String, but the value of 'Foo' is a Array")
lambda {
Rack::Lint.new(lambda { |env|
[200, {"Foo-Bar" => "text\000plain"}, []]
}).call(env({}))
}.should.raise(Rack::Lint::LintError).
message.should.match(/invalid header/)
# line ends (010) should be allowed in header values.
lambda {
Rack::Lint.new(lambda { |env|
[200, {"Foo-Bar" => "one\ntwo\nthree", "Content-Length" => "0", "Content-Type" => "text/plain" }, []]
}).call(env({}))
}.should.not.raise(Rack::Lint::LintError)
# non-Hash header responses should be allowed
lambda {
Rack::Lint.new(lambda { |env|
[200, [%w(Content-Type text/plain), %w(Content-Length 0)], []]
}).call(env({}))
}.should.not.raise(TypeError)
end
should "notice content-type errors" do
# lambda {
# Rack::Lint.new(lambda { |env|
# [200, {"Content-length" => "0"}, []]
# }).call(env({}))
# }.should.raise(Rack::Lint::LintError).
# message.should.match(/No Content-Type/)
[100, 101, 204, 205, 304].each do |status|
lambda {
Rack::Lint.new(lambda { |env|
[status, {"Content-type" => "text/plain", "Content-length" => "0"}, []]
}).call(env({}))
}.should.raise(Rack::Lint::LintError).
message.should.match(/Content-Type header found/)
end
end
should "notice content-length errors" do
[100, 101, 204, 205, 304].each do |status|
lambda {
Rack::Lint.new(lambda { |env|
[status, {"Content-length" => "0"}, []]
}).call(env({}))
}.should.raise(Rack::Lint::LintError).
message.should.match(/Content-Length header found/)
end
lambda {
Rack::Lint.new(lambda { |env|
[200, {"Content-type" => "text/plain", "Content-Length" => "1"}, []]
}).call(env({}))[2].each { }
}.should.raise(Rack::Lint::LintError).
message.should.match(/Content-Length header was 1, but should be 0/)
end
should "notice body errors" do
lambda {
body = Rack::Lint.new(lambda { |env|
[200, {"Content-type" => "text/plain","Content-length" => "3"}, [1,2,3]]
}).call(env({}))[2]
body.each { |part| }
}.should.raise(Rack::Lint::LintError).
message.should.match(/yielded non-string/)
end
should "notice input handling errors" do
lambda {
Rack::Lint.new(lambda { |env|
env["rack.input"].gets("\r\n")
[201, {"Content-type" => "text/plain", "Content-length" => "0"}, []]
}).call(env({}))
}.should.raise(Rack::Lint::LintError).
message.should.match(/gets called with arguments/)
lambda {
Rack::Lint.new(lambda { |env|
env["rack.input"].read(1, 2, 3)
[201, {"Content-type" => "text/plain", "Content-length" => "0"}, []]
}).call(env({}))
}.should.raise(Rack::Lint::LintError).
message.should.match(/read called with too many arguments/)
lambda {
Rack::Lint.new(lambda { |env|
env["rack.input"].read("foo")
[201, {"Content-type" => "text/plain", "Content-length" => "0"}, []]
}).call(env({}))
}.should.raise(Rack::Lint::LintError).
message.should.match(/read called with non-integer and non-nil length/)
lambda {
Rack::Lint.new(lambda { |env|
env["rack.input"].read(-1)
[201, {"Content-type" => "text/plain", "Content-length" => "0"}, []]
}).call(env({}))
}.should.raise(Rack::Lint::LintError).
message.should.match(/read called with a negative length/)
lambda {
Rack::Lint.new(lambda { |env|
env["rack.input"].read(nil, nil)
[201, {"Content-type" => "text/plain", "Content-length" => "0"}, []]
}).call(env({}))
}.should.raise(Rack::Lint::LintError).
message.should.match(/read called with non-String buffer/)
lambda {
Rack::Lint.new(lambda { |env|
env["rack.input"].read(nil, 1)
[201, {"Content-type" => "text/plain", "Content-length" => "0"}, []]
}).call(env({}))
}.should.raise(Rack::Lint::LintError).
message.should.match(/read called with non-String buffer/)
lambda {
Rack::Lint.new(lambda { |env|
env["rack.input"].rewind(0)
[201, {"Content-type" => "text/plain", "Content-length" => "0"}, []]
}).call(env({}))
}.should.raise(Rack::Lint::LintError).
message.should.match(/rewind called with arguments/)
weirdio = Object.new
class << weirdio
def gets
42
end
def read
23
end
def each
yield 23
yield 42
end
def rewind
raise Errno::ESPIPE, "Errno::ESPIPE"
end
end
eof_weirdio = Object.new
class << eof_weirdio
def gets
nil
end
def read(*args)
nil
end
def each
end
def rewind
end
end
lambda {
Rack::Lint.new(lambda { |env|
env["rack.input"].gets
[201, {"Content-type" => "text/plain", "Content-length" => "0"}, []]
}).call(env("rack.input" => weirdio))
}.should.raise(Rack::Lint::LintError).
message.should.match(/gets didn't return a String/)
lambda {
Rack::Lint.new(lambda { |env|
env["rack.input"].each { |x| }
[201, {"Content-type" => "text/plain", "Content-length" => "0"}, []]
}).call(env("rack.input" => weirdio))
}.should.raise(Rack::Lint::LintError).
message.should.match(/each didn't yield a String/)
lambda {
Rack::Lint.new(lambda { |env|
env["rack.input"].read
[201, {"Content-type" => "text/plain", "Content-length" => "0"}, []]
}).call(env("rack.input" => weirdio))
}.should.raise(Rack::Lint::LintError).
message.should.match(/read didn't return nil or a String/)
lambda {
Rack::Lint.new(lambda { |env|
env["rack.input"].read
[201, {"Content-type" => "text/plain", "Content-length" => "0"}, []]
}).call(env("rack.input" => eof_weirdio))
}.should.raise(Rack::Lint::LintError).
message.should.match(/read\(nil\) returned nil on EOF/)
lambda {
Rack::Lint.new(lambda { |env|
env["rack.input"].rewind
[201, {"Content-type" => "text/plain", "Content-length" => "0"}, []]
}).call(env("rack.input" => weirdio))
}.should.raise(Rack::Lint::LintError).
message.should.match(/rewind raised Errno::ESPIPE/)
lambda {
Rack::Lint.new(lambda { |env|
env["rack.input"].close
[201, {"Content-type" => "text/plain", "Content-length" => "0"}, []]
}).call(env({}))
}.should.raise(Rack::Lint::LintError).
message.should.match(/close must not be called/)
end
should "notice error handling errors" do
lambda {
Rack::Lint.new(lambda { |env|
env["rack.errors"].write(42)
[201, {"Content-type" => "text/plain", "Content-length" => "0"}, []]
}).call(env({}))
}.should.raise(Rack::Lint::LintError).
message.should.match(/write not called with a String/)
lambda {
Rack::Lint.new(lambda { |env|
env["rack.errors"].close
[201, {"Content-type" => "text/plain", "Content-length" => "0"}, []]
}).call(env({}))
}.should.raise(Rack::Lint::LintError).
message.should.match(/close must not be called/)
end
should "notice HEAD errors" do
lambda {
Rack::Lint.new(lambda { |env|
[200, {"Content-type" => "test/plain", "Content-length" => "3"}, []]
}).call(env({"REQUEST_METHOD" => "HEAD"}))
}.should.not.raise
lambda {
Rack::Lint.new(lambda { |env|
[200, {"Content-type" => "test/plain", "Content-length" => "3"}, ["foo"]]
}).call(env({"REQUEST_METHOD" => "HEAD"}))[2].each { }
}.should.raise(Rack::Lint::LintError).
message.should.match(/body was given for HEAD/)
end
should "pass valid read calls" do
hello_str = "hello world"
hello_str.force_encoding("ASCII-8BIT") if hello_str.respond_to? :force_encoding
lambda {
Rack::Lint.new(lambda { |env|
env["rack.input"].read
[201, {"Content-type" => "text/plain", "Content-length" => "0"}, []]
}).call(env({"rack.input" => StringIO.new(hello_str)}))
}.should.not.raise(Rack::Lint::LintError)
lambda {
Rack::Lint.new(lambda { |env|
env["rack.input"].read(0)
[201, {"Content-type" => "text/plain", "Content-length" => "0"}, []]
}).call(env({"rack.input" => StringIO.new(hello_str)}))
}.should.not.raise(Rack::Lint::LintError)
lambda {
Rack::Lint.new(lambda { |env|
env["rack.input"].read(1)
[201, {"Content-type" => "text/plain", "Content-length" => "0"}, []]
}).call(env({"rack.input" => StringIO.new(hello_str)}))
}.should.not.raise(Rack::Lint::LintError)
lambda {
Rack::Lint.new(lambda { |env|
env["rack.input"].read(nil)
[201, {"Content-type" => "text/plain", "Content-length" => "0"}, []]
}).call(env({"rack.input" => StringIO.new(hello_str)}))
}.should.not.raise(Rack::Lint::LintError)
lambda {
Rack::Lint.new(lambda { |env|
env["rack.input"].read(nil, '')
[201, {"Content-type" => "text/plain", "Content-length" => "0"}, []]
}).call(env({"rack.input" => StringIO.new(hello_str)}))
}.should.not.raise(Rack::Lint::LintError)
lambda {
Rack::Lint.new(lambda { |env|
env["rack.input"].read(1, '')
[201, {"Content-type" => "text/plain", "Content-length" => "0"}, []]
}).call(env({"rack.input" => StringIO.new(hello_str)}))
}.should.not.raise(Rack::Lint::LintError)
end
end
describe "Rack::Lint::InputWrapper" do
should "delegate :rewind to underlying IO object" do
io = StringIO.new("123")
wrapper = Rack::Lint::InputWrapper.new(io)
wrapper.read.should.equal "123"
wrapper.read.should.equal ""
wrapper.rewind
wrapper.read.should.equal "123"
end
end
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